Influence of the Accumulative Roll Bonding Process Severity on the Microstructure and Superplastic Behaviour of 7075 Al Alloy
来源期刊:JOURNAL OF MATERIALS SCIENCE TECHNOLOG2016年第8期
论文作者:P.Hidalgo-Manrique A.Orozco-Caballero C.M.Cepeda-Jiménez O.A.Ruano F.Carre?o
文章页码:774 - 782
摘 要:The 7075 Al alloy was processed by accumulative roll bonding(ARB) at 350 °C using 2:1, 3:1 and 4:1thickness reductions per pass(Rp) up to 8, 6 and 3 passes, respectively. Microstructural examinations of the processed samples revealed that ARB leads to a microstructure composed of equiaxed crystallites with a mean size generally lower than 500 nm. It was found that, due to both the stored energy throughout the processing and the particle pinning effect, the alloy is affected by discontinuous recrystallisation during the inter-pass heating stages, the precise microstructural evolution being dependent on Rp. Mechanical testing of the ARBed samples revealed that the main active deformation mechanism in the ARBed samples in the temperature range from 250 to 350 °C at intermediate and high strain rates is grain boundary sliding, the superplastic properties being determined by both the microstructure after ARB and its thermal stability.
P.Hidalgo-Manrique,A.Orozco-Caballero,C.M.Cepeda-Jiménez,O.A.Ruano,F.Carre?o
Department of Physical Metallurgy, CENIM, CSIC
摘 要:The 7075 Al alloy was processed by accumulative roll bonding(ARB) at 350 °C using 2:1, 3:1 and 4:1thickness reductions per pass(Rp) up to 8, 6 and 3 passes, respectively. Microstructural examinations of the processed samples revealed that ARB leads to a microstructure composed of equiaxed crystallites with a mean size generally lower than 500 nm. It was found that, due to both the stored energy throughout the processing and the particle pinning effect, the alloy is affected by discontinuous recrystallisation during the inter-pass heating stages, the precise microstructural evolution being dependent on Rp. Mechanical testing of the ARBed samples revealed that the main active deformation mechanism in the ARBed samples in the temperature range from 250 to 350 °C at intermediate and high strain rates is grain boundary sliding, the superplastic properties being determined by both the microstructure after ARB and its thermal stability.
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